Influence of Asymmetric Agglomerations Effects over the Photothermal Release of Liposome-Encapsulated Nanodiamonds Assisted by Opto-Mechanical Changes
An analysis of optical effects exhibited by blood plasma under healthy/unhealthy conditions, and of the penetrating evolution of nanovehicles conformed by nanodiamonds (NDs) encapsulating liposomes (L) within these biofluids, is presented. Optical ablation of liposome clusters was actuated and contr...
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MDPI AG
2023-03-01
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author | Samuel Morales-Bonilla Isaac I. Mota-Díaz Janna Douda Ariel Fuerte-Hernández Juan Pablo Campos-López Carlos Torres-Torres |
author_facet | Samuel Morales-Bonilla Isaac I. Mota-Díaz Janna Douda Ariel Fuerte-Hernández Juan Pablo Campos-López Carlos Torres-Torres |
author_sort | Samuel Morales-Bonilla |
collection | DOAJ |
description | An analysis of optical effects exhibited by blood plasma under healthy/unhealthy conditions, and of the penetrating evolution of nanovehicles conformed by nanodiamonds (NDs) encapsulating liposomes (L) within these biofluids, is presented. Optical ablation of liposome clusters was actuated and controlled by a standard two-wave mixing (<i>λ</i> = 532 nm, τp = 4 ns) laser light method. Radiant time exposure effects (30 min) and threshold laser energy parameters (250 mJ/cm<sup>2</sup> numerical; 181 mJ/cm<sup>2</sup> experimental) necessary to release NDs were identified and confirmed with similar experiments in the literature. Interactions during the sedimentation process between nanovehicles and the laser beams barrier were considered as the principal thermal damage process to achieve the release and transportation of drugs within these static fluids. The mechanical response during the release of NDs focuses on the temperature propagation, dynamic effects of nanovehicles associated with the diffusion coefficient, and some agglomeration effects. The principal findings of this research concern the threshold temperature (51.85 °C) of liposomes for the release of NDs with respect to that typically quoted in the literature (40–70 °C) for pure liposomes. The assessment of the release of NDs focuses on the numerical magnitude of Quantum Yield. Furthermore, the optical contrast enhancement was associated with NDs size agglomerations and the healthy/unhealthy conditions of fluids. This research aims to be a first proof approximation for delivery and transportation approaches to guide and interpret outcomes when combined with the vectorial nature basis of laser light and further effects once the cargo is retained in the fluids. |
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spelling | doaj.art-8395e16a65964e9f888574682bcf72ac2023-11-17T14:10:49ZengMDPI AGSymmetry2073-89942023-03-0115377510.3390/sym15030775Influence of Asymmetric Agglomerations Effects over the Photothermal Release of Liposome-Encapsulated Nanodiamonds Assisted by Opto-Mechanical ChangesSamuel Morales-Bonilla0Isaac I. Mota-Díaz1Janna Douda2Ariel Fuerte-Hernández3Juan Pablo Campos-López4Carlos Torres-Torres5Escuela Superior de Ingeniería Mecánica y Eléctrica Unidad Zacatenco, Instituto Politécnico Nacional, Ciudad de México 07738, MexicoUnidad Profesional Interdisciplinaria en Ingeniería y Tecnologías Avanzadas, Instituto Politécnico Nacional, Ciudad de México 07320, MexicoUnidad Profesional Interdisciplinaria en Ingeniería y Tecnologías Avanzadas, Instituto Politécnico Nacional, Ciudad de México 07320, MexicoDivisión de Ingeniería Mecatrónica, Universidad Politécnica del Valle de México, Tultitlan 54910, MexicoDivisión de Ingeniería Mecatrónica, Universidad Politécnica del Valle de México, Tultitlan 54910, MexicoEscuela Superior de Ingeniería Mecánica y Eléctrica Unidad Zacatenco, Instituto Politécnico Nacional, Ciudad de México 07738, MexicoAn analysis of optical effects exhibited by blood plasma under healthy/unhealthy conditions, and of the penetrating evolution of nanovehicles conformed by nanodiamonds (NDs) encapsulating liposomes (L) within these biofluids, is presented. Optical ablation of liposome clusters was actuated and controlled by a standard two-wave mixing (<i>λ</i> = 532 nm, τp = 4 ns) laser light method. Radiant time exposure effects (30 min) and threshold laser energy parameters (250 mJ/cm<sup>2</sup> numerical; 181 mJ/cm<sup>2</sup> experimental) necessary to release NDs were identified and confirmed with similar experiments in the literature. Interactions during the sedimentation process between nanovehicles and the laser beams barrier were considered as the principal thermal damage process to achieve the release and transportation of drugs within these static fluids. The mechanical response during the release of NDs focuses on the temperature propagation, dynamic effects of nanovehicles associated with the diffusion coefficient, and some agglomeration effects. The principal findings of this research concern the threshold temperature (51.85 °C) of liposomes for the release of NDs with respect to that typically quoted in the literature (40–70 °C) for pure liposomes. The assessment of the release of NDs focuses on the numerical magnitude of Quantum Yield. Furthermore, the optical contrast enhancement was associated with NDs size agglomerations and the healthy/unhealthy conditions of fluids. This research aims to be a first proof approximation for delivery and transportation approaches to guide and interpret outcomes when combined with the vectorial nature basis of laser light and further effects once the cargo is retained in the fluids.https://www.mdpi.com/2073-8994/15/3/775nanovehiclesphotophysicsopticsblood plasmananodiamondsliposomes |
spellingShingle | Samuel Morales-Bonilla Isaac I. Mota-Díaz Janna Douda Ariel Fuerte-Hernández Juan Pablo Campos-López Carlos Torres-Torres Influence of Asymmetric Agglomerations Effects over the Photothermal Release of Liposome-Encapsulated Nanodiamonds Assisted by Opto-Mechanical Changes Symmetry nanovehicles photophysics optics blood plasma nanodiamonds liposomes |
title | Influence of Asymmetric Agglomerations Effects over the Photothermal Release of Liposome-Encapsulated Nanodiamonds Assisted by Opto-Mechanical Changes |
title_full | Influence of Asymmetric Agglomerations Effects over the Photothermal Release of Liposome-Encapsulated Nanodiamonds Assisted by Opto-Mechanical Changes |
title_fullStr | Influence of Asymmetric Agglomerations Effects over the Photothermal Release of Liposome-Encapsulated Nanodiamonds Assisted by Opto-Mechanical Changes |
title_full_unstemmed | Influence of Asymmetric Agglomerations Effects over the Photothermal Release of Liposome-Encapsulated Nanodiamonds Assisted by Opto-Mechanical Changes |
title_short | Influence of Asymmetric Agglomerations Effects over the Photothermal Release of Liposome-Encapsulated Nanodiamonds Assisted by Opto-Mechanical Changes |
title_sort | influence of asymmetric agglomerations effects over the photothermal release of liposome encapsulated nanodiamonds assisted by opto mechanical changes |
topic | nanovehicles photophysics optics blood plasma nanodiamonds liposomes |
url | https://www.mdpi.com/2073-8994/15/3/775 |
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